CN117276996B - Buckle formula communication pencil adapter subassembly reaches communication pencil including it - Google Patents

Abstract

The invention discloses a buckle type communication wire harness adapter assembly and a communication wire harness comprising the same, and relates to the technical field of conductive connection structures. According to the invention, when the male plug part of the communication wire is inserted into the female plug in the signal docking station, the conductive connection between the communication wire and the signal docking station can be completed through the conductive connection between the male plug conductive part and the female plug conductive part in the male plug part, so that different signal communication effects can be realized through the signal docking station conveniently, meanwhile, when the male plug conductive part is inserted into the female plug, the installation and positioning of the female plug and the male plug in the connection state can be completed, the mechanical fatigue of the female plug and the male plug in the connection state is reduced, and the stability of conductive connection is ensured when the communication wire is used in the bending state.

Description

Buckle formula communication pencil adapter subassembly reaches communication pencil including it

Technical Field

The invention relates to the technical field related to conductive connection structures, in particular to a buckle type communication harness adapter assembly and a communication harness comprising the same.

Background

The adapter is used in electrical systems such as electronic equipment and electrical facilities, and is used for connecting cables with different specifications or types to realize signal transmission or power transmission, wherein one of the most common uses is to connect with a signal docking station for connecting various external devices, and meanwhile, when the adapter is connected, the part of a communication wire harness is required to be used for signal communication.

The prior art is disclosed in chinese patent publication No. CN114069337a, which discloses an adapter device, comprising an electrical connection power supply device and an electrical connection power consumption device, and comprising a signal transmission housing, a control circuit module, a first connector, a second connector and a switch module. The control circuit module is arranged in the signal transmission shell and is provided with a signal transmission piece electrically connected with the signal transmission shell. The first connector and the second connector are respectively and electrically connected with the control circuit module. The switch module is arranged on the signal transmission shell and is electrically connected with the control circuit module so as to switch on or off between the first connector and the second connector; the invention can electrically connect the mobile device on hand with the adapter device of the invention through the OTG signal wire, and can supply power to the power utilization device, so that the power utilization device does not need to be provided with a battery, the adapter device also does not need to be provided with a battery, and the volume of the adapter device can be reduced. Thereby achieving the purposes of improving the use convenience, saving energy and reducing the volume.

The prior Chinese patent with publication number CN114447674A discloses an otg adapter, which comprises an installation shell, a first adapter, a second adapter, a control board and a conductive contact; the right part of the inner side of the mounting shell is provided with a first joint; the left part of the inner side of the mounting shell is provided with a second joint; the right side of the second joint is connected with a control board; the control panel is connected with the mounting shell; the right side of the control panel is connected with the first joint; the right part of the front side and the right part of the rear side of the mounting shell are respectively embedded with two conductive contacts, and the conductive contacts are electrically connected with the control board; in the invention, in the process of charging the mobile equipment, other equipment can be charged or powered through the additional output contact, and the stability of the otg joint is ensured through double fixing of the side part and the bottom part.

However, this adapter has the following drawbacks when used specifically:

1. when the existing adapter is actually used, a plug part of the adapter is required to be connected with a socket part of electronic equipment (including but not limited to a docking station) to be connected, but when the existing adapter is used in practice, a certain height difference exists between the adapter and a place where the electronic equipment is placed after the existing adapter is communicated, at the moment, a wire part of the adapter can be bent, and therefore a connecting part of the plug and the socket can be bent to a certain extent, and after the existing adapter is used for a long time, the plug and the socket can be deformed due to mechanical fatigue, so that the conductivity of the plug and the socket is affected;

2. when the existing adapter is actually used, the plug part of the adapter is required to be connected with the electronic equipment to be connected, but when the adapter is actually used, the plug part of the adapter is not necessarily matched with the socket part of the electronic equipment at the moment because the types of the connected electronic equipment are different, so that when the adapter is used, the adapters of different plug types are required to be replaced according to the different sockets, and the adapter is high in cost and inconvenient to use.

Disclosure of Invention

The invention aims to provide a buckle type communication harness adapter assembly and a communication harness comprising the same, so as to solve the problems in the prior art.

In order to achieve the aim of the invention, the invention adopts the following technical scheme:

the invention provides a buckle type communication harness adapter component, which comprises a signal docking station, wherein one side of the signal docking station is provided with a plurality of conductive connecting parts connected with an internal control panel, the side surface of the signal docking station is in conductive connection with a communication wire through a clamping conductive mechanism, the communication wire is in conductive connection with the adapter component, and the clamping conductive mechanism further comprises:

the conductive connection assembly is arranged on the side face of the signal docking station and is in conductive connection with the control panel in the signal docking station, and the conductive connection assembly is in conductive connection with the communication wire;

the tooth telescopic components are arranged on the side face of the conductive connecting component and are in annular equidistant six groups, the tooth telescopic components are driven by the conductive connecting component, and the tooth telescopic components penetrate through the conductive connecting component;

the clamping assembly is arranged on the outer side of the communication wire and positioned on the back surface of the conductive connecting assembly, and the clamping assembly is in clamping connection with the tooth telescopic assembly;

the communication lead is bent and arranged, the outer side of the communication lead is connected through the positioning assembly, the outer side of the signal docking station is further provided with a protective sleeve, the inner side of the protective sleeve is further provided with a data lamp set arranged at the top of the signal docking station, and the data lamp set is in conductive connection with a control panel inside the signal docking station.

As a preferred embodiment of the present invention, the joint conversion assembly includes:

the first data connector is in conductive connection with the communication wire, one sides of the upper end and the lower end of the first data connector are provided with rotating shafts, and the rotating shafts extend into the sliding part;

the sliding part is arranged on the upper side and the lower side of the inner wall of the external connecting sleeve, and the external connecting sleeve is movably connected to the outer side of the first data connector;

and the second data connector is arranged in the external connecting sleeve, and the bottom of the second data connector is connected with a conductive connector in a conductive manner, and the conductive connector is spliced with the first data connector.

As a preferable scheme of the invention, the cross section area of the first data joint is smaller than the cross section area of the external connecting sleeve, one side of the external connecting sleeve is arc-shaped, the length of the side is smaller than that of the other side of the external connecting sleeve, the inside of the other side of the external connecting sleeve is hollow, and the height of the hollow part is larger than that of the first data joint.

As a preferred embodiment of the present invention, the conductive connection assembly includes:

the plugging female connector is arranged on the side face of the signal docking station and is in conductive connection with the control panel in the signal docking station, and the plugging male connector is in conductive connection with the side face of the plugging female connector;

wherein, the bottom of the plug-in male connector is provided with a communication wire;

the male conductive piece is arranged on the side face of the plug male and extends to the inside of the female conductive piece, the female conductive piece is arranged on the inner side of the plug female, and the male conductive piece and the female conductive piece are in conductive connection.

As a preferable scheme of the invention, the outer side of the plug-in female connector is provided with a tooth telescopic component, the tooth telescopic component penetrates through the male conductive piece, and the back of the male conductive piece is provided with a buckle component.

As a preferred scheme of the present invention, the tooth extension assembly includes:

the plastic tooth plates are arranged on the outer side of the male conductive piece and are in annular equidistant six groups, the side surfaces of the plastic tooth plates are meshed with transmission gears connected, and the transmission gears are rotationally connected on the inner side of the protruding part;

the convex parts are installed on the outer side of the plug female connector at equal intervals in an annular mode and correspond to the plastic tooth plates one by one, and the top of the transmission gear is connected with the telescopic tooth plates in a meshed mode;

the telescopic tooth plate extends to the outer side of the protruding portion, the telescopic tooth plate penetrates through the guiding portion arranged in the plug-in male connector, and the bottom of the telescopic tooth plate is provided with a buckle assembly.

As a preferable scheme of the invention, the top of the telescopic tooth plate protrudes outwards to form a guide protruding block, and the guide protruding block is in sliding connection with the guide groove;

the guide groove is formed in the inner top of the guide portion, teeth are not arranged on one side, extending to the outer portion of the guide portion, of the telescopic tooth plate, and a space capable of enabling the telescopic tooth plate to move is arranged in the guide portion.

As a preferred aspect of the present invention, the buckle assembly includes:

the magnetic attraction sleeve is sleeved on the outer side of the communication wire and is magnetically connected with the plug-in male head, six groups of buckle rods are mounted on the outer side of the magnetic attraction sleeve at equal intervals in an annular shape, and the buckle rods correspond to the telescopic tooth plates one by one;

the buckle portion is arranged at the bottom of the telescopic tooth plate, a damping block is arranged on the inner wall of the buckle portion, and the buckle portion is matched with the protruding portion at the top of the telescopic tooth plate to complete buckle connection.

As a preferable scheme of the invention, the positioning component comprises a limiting part which is arranged on the outer side of the communication wire and provided with a plurality of limiting parts, wherein the limiting parts are magnetically connected, one group of the limiting parts is provided with a positioning groove which is protruded outwards from the side surface of the limiting part, the left side and the right side of the inner wall of the positioning groove are provided with spring pieces, the other group of the limiting parts is provided with a positioning part which is protruded outwards from the side surface of the limiting part, and the inside of the positioning part is hollow and is provided with the spring pieces.

The invention provides a communication wire harness of a buckle type communication wire harness adapter component, which aims at any buckle type communication wire harness adapter component and comprises communication wires, wherein the communication wires are formed by a rubber protection layer, a heat-resistant layer, a waterproof layer and a cable from outside to inside, the rubber protection layer is made of rubber, the heat-resistant layer is made of polytetrafluoroethylene, the waterproof layer is made of epoxy resin, and the cable is provided with three groups and is spirally wound in the waterproof layer.

Compared with the prior art, the above technical scheme has the following beneficial effects:

1. the buckle type communication harness adapter component comprises a communication harness, when an inserted male part of a communication wire is inserted into an inserted female part in a signal docking station, the conductive connection of the male conductive part and the female conductive part in the two parts can be completed, so that the conductive connection of the communication wire and the signal docking station is convenient, different signal communication functions (such as signal transmission or electric power transmission) can be realized through the signal docking station, meanwhile, when the male conductive part is inserted into the inserted female part, a plastic tooth plate at the outer side of the male conductive part can drive a transmission gear to rotate, further, the telescopic tooth plate connected with the top of the transmission gear is driven to move, and penetrates through the inserted male part to extend to one side of the communication wire, then the buckle rod is in buckle connection with the buckle part in the telescopic tooth plate in a manual installation mode, the installation and positioning of the positions of the telescopic tooth plate are completed, the installation and positioning of the inserted female part and the inserted male part in a connecting state are reduced, and the mechanical fatigue of the female part and the inserted male part in a connecting state is guaranteed, and the stability of the conductive connection is guaranteed when the communication wire is used in a bending state;

2. according to the buckle type communication wire harness adapter component and the communication wire harness comprising the same, when the data connector part at the port of the communication wire is actually inserted into corresponding electronic equipment, whether the conductive connector at the bottom of the external connecting sleeve is connected with the first data connector or not can be selected by manually stretching and rotating the external connecting sleeve, namely, when the conductive connector is connected with the first data connector, the type of connector, namely, the second data connector, is selected to be in conductive connection with the electronic equipment, and when the conductive connector is not connected with the first data connector, the type of connector, namely, the first data connector, is selected to be in conductive connection with the electronic equipment, so that the application range of the data connector is improved, the electronic equipment of different types is matched to the greatest extent, and the adapter is more convenient to use and lower in cost;

3. the buckle type communication wire harness adapter component comprises a limiting component, wherein when the communication wire harness adapter component is actually used, the limiting component is connected with the communication wire harness through magnetic attraction to position the communication wire, and the communication wire in a bending state is positioned through the connection of a side spring piece of the limiting component and a positioning part, so that the probability of winding the communication wire together is reduced, and meanwhile, the installation part of the limiting component can be far away from one side of an inserting male connector, so that enough space is reserved for bending the communication wire, and mechanical fatigue of the inserting male connector during insertion connection is further reduced;

4. this buckle formula communication pencil adapter subassembly reaches the communication pencil including it, this communication wire part that carries out conductive connection to the signal, its outside has set gradually rubber inoxidizing coating, heat-resistant layer and waterproof layer, carries out rubber protection, heat-resisting and waterproof protection to the conductive cable part that communication wire inside center department set up respectively, effectively promotes when in actual use, this communication wire's life and effect to reducible conductive connection is time, and communication wire part leads to the probability that communication wire takes place to burn because of conductive high temperature.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention.

Furthermore, the terms "install," "set," "provided," "connected," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the overall side view of the present invention;

FIG. 3 is a schematic view of a snap-in conductive mechanism according to the present invention;

FIG. 4 is a schematic view of the connection of the socket head and the tooth telescoping assembly of the present invention;

FIG. 5 is a schematic view of the connection of the male plug and the snap assembly of the present invention;

FIG. 6 is a schematic view of the connection of the male plug and the tooth telescoping assembly of the present invention;

FIG. 7 is a schematic view of the connection of the tooth extension assembly and the buckle assembly of the present invention;

FIG. 8 is a schematic diagram of the connection of the communication wires and the connector switch assembly of the present invention;

FIG. 9 is a schematic diagram of the connection of the communication wires and the positioning assembly of the present invention;

FIG. 10 is a schematic cross-sectional view of a communication wire of the present invention;

in the figure:

10. a signal docking station; 10i, conductive connection parts;

20. clamping the conductive mechanism;

30. a communication wire; 30i, cables; 301. a rubber protective layer; 302. a heat-resistant layer; 303. a waterproof layer;

40. a joint conversion assembly; 401. a first data connector; 402. a rotating shaft; 403. a sliding part; 404. an external connecting sleeve; 405. a second data connector; 406. a conductive contact;

50. a conductive connection assembly; 501. inserting a female connector; 502. inserting a male connector; 503. a male conductive member; 504. a female conductive member;

60. a tooth telescoping assembly; 601. a plastic dental plate; 602. a transmission gear; 603. a boss; 603a, guide bumps; 603b, guide grooves; 604. a guide part; 605. a retractable tooth plate;

70. a clasp assembly; 701. a magnetic attraction sleeve; 702. a clasp rod; 703. a fastening part;

80. a positioning assembly; 801. a limiting member; 802. a positioning groove; 803. a spring piece; 804. a positioning part;

90. a protective sleeve;

100. a data light group.

Detailed Description

In order to make the present application solution better understood by those skilled in the art, the following description will make clear and complete descriptions of the technical solutions in the embodiments of the present application with reference to the accompanying drawings, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, shall fall within the scope of the present application.

Referring to fig. 1-9, the snap-on communication harness adapter assembly includes a signal docking station 10, one side of the signal docking station 10 is provided with a plurality of conductive connection parts 10i connected with an internal control panel, a side surface of the signal docking station 10 is electrically connected with a communication wire 30 through a snap-on conductive mechanism 20, the communication wire 30 is electrically connected with a connector conversion assembly 40, the snap-on conductive mechanism 20 also includes a conductive connection assembly 50 which is mounted on the side surface of the signal docking station 10 and is electrically connected with the control panel in the signal docking station 10, and the conductive connection assembly 50 is electrically connected with the communication wire 30; the tooth telescopic components 60 are arranged on the side surface of the conductive connecting component 50 and are in annular shape, six groups of tooth telescopic components 60 are equidistantly arranged, the tooth telescopic components 60 are driven by the conductive connecting component 50, and the tooth telescopic components 60 penetrate through the conductive connecting component 50; the buckle component 70 is arranged on the outer side of the communication wire 30 and positioned on the back surface of the conductive connection component 50, and the buckle component 70 is in clamping connection with the tooth telescopic component 60; the communication wire 30 is bent and arranged, the outer side of the communication wire is connected through the positioning assembly 80, the outer side of the signal docking station 10 is further provided with a protective sleeve 90, the inner side of the protective sleeve 90 is further provided with a data lamp set 100 arranged at the top of the signal docking station 10, and the data lamp set 100 is in conductive connection with a control panel inside the signal docking station 10.

The working principle is as follows: when the plug part of the communication wire 30 is inserted into the signal docking station 10, the conductive connection of the communication wire 30 and the signal docking station 10 is completed through the conductive connection assembly 50, and when the conductive connection assembly and the conductive connection assembly are actually inserted, the insertion of the internal part of the conductive connection assembly 50 drives the six groups of tooth telescopic assemblies 60 arranged on the outer side of the internal part to operate, and the six groups of tooth telescopic assemblies 60 are matched with the manually-operated clamping buckle assembly 70 to clamp and fix the positions of the tooth telescopic assemblies 60, so that the conductive connection assembly 50 is installed and fixed in a connection state, and further, when the communication wire 30 is required to be bent and used subsequently, the mechanical fatigue of the internal part of the conductive connection assembly 50 in the bending state can be effectively reduced, the internal part of the conductive connection assembly 50 is protected, the capability of the internal part of the conductive connection is guaranteed, meanwhile, the joint conversion assembly 40 arranged at the top of the communication wire 30 can be correspondingly replaced according to the type of the socket part of an electronic device to be connected, the insertion conductive use of different types of electronic devices is matched, and the convenience of the use of the adapter is improved.

Referring specifically to fig. 1, 2 and 8, in order to select a corresponding type of connector according to the type of socket of the electronic device to be connected, the connector conversion assembly 40 includes a first data connector 401 electrically connected to the communication wire 30, and a rotating shaft 402 is mounted on one side of each of the upper and lower ends of the first data connector 401, and the rotating shaft 402 extends into the sliding portion 403; the sliding part 403 is arranged on the upper side and the lower side of the inner wall of the external connecting sleeve 404, and the external connecting sleeve 404 is movably connected to the outer side of the first data connector 401; the second data connector 405 is installed inside the external connecting sleeve 404, the bottom of the second data connector 405 is electrically connected with the conductive connector 406, and the conductive connector 406 is plugged with the first data connector 401; the cross-sectional area of the first data connector 401 is smaller than the cross-sectional area of the external connection sleeve 404, one side of the external connection sleeve 404 is arc-shaped, the length of the side is smaller than that of the other side, the inside of the other side of the external connection sleeve 404 is hollow, and the height of the hollow part is larger than that of the first data connector 401.

When the communication wire 30 is connected with the electronic equipment, the snap-in communication wire harness adapter assembly of the invention selects the data connector with the corresponding shape according to the type of the socket part of the electronic equipment, and specifically comprises the following steps: by manually pulling the external connection sleeve 404, the external connection sleeve 404 can slide and rotate with the rotating shaft 402 of the first data connector 401 through the sliding part 403, so that the conductive connector 406 inside the external connection sleeve 404 can be selectively inserted into the outer side of the first data connector 401, and can be electrically connected with the external connection sleeve and the first data connector 401 when the external connection sleeve 404 is inserted into the rotating shaft, so that the second data connector 405 is positioned on the outer side of the first data connector 401 when the external connection sleeve 404 is not inserted into the rotating shaft, and the first data connector 401 is selected.

Referring specifically to fig. 1, 2, 3, 4, 5 and 6, in order to complete the conductive connection of the signal docking station 10 and the communication wire 30, the conductive connection assembly 50 includes a female plug 501 mounted on a side of the signal docking station 10 and electrically connected to a control panel inside the signal docking station 10, and a male plug 502 electrically connected to a side of the female plug 501; wherein, the bottom of the plug male head 502 is provided with a communication wire 30; the male conductive member 503 is mounted on the side surface of the male plug 502 and extends into the female conductive member 504, the female conductive member 504 is mounted on the inner side of the female plug 501, and the male conductive member 503 and the female conductive member 504 are electrically connected; the outer side of the plug female connector 501 is provided with a tooth telescopic component 60, the tooth telescopic component 60 penetrates through the male conductive part 503, and the back surface of the male conductive part 503 is provided with a buckle component 70.

In the buckle type communication harness adapter assembly, when the connection is actually performed, the male plug 502 connected with the communication wire 30 can be manually inserted into the female plug 501, and the conductive connection between the male plug 502 and the female plug 501 is completed by connecting the male plug conductive piece 503 in the male plug 502 with the female plug conductive piece 504 in the female plug 501, wherein when the male plug conductive piece 503 is inserted, the tooth telescopic assembly 60 arranged on the outer side of the male plug conductive piece is driven to operate.

Referring specifically to fig. 1, 2, 3, 4, 5, 6 and 7, in order to penetrate the telescopic tooth plate 605 through the plug-in male head 502 to complete the subsequent positioning of the two positions, the tooth telescopic assembly 60 includes a plastic tooth plate 601, which is installed on the outer side of the male head conductive member 503 and is provided with six groups of transmission gears 602 in annular equidistant arrangement, and the side surfaces of the plastic tooth plate 601 are engaged with each other, and the transmission gears 602 are rotatably connected on the inner side of the protruding portion 603; the protruding parts 603 are installed on the outer side of the plug female connector 501 at equal intervals in an annular mode and correspond to the plastic tooth plates 601 one by one, and the top of the transmission gear 602 is connected with a telescopic tooth plate 605 in a meshed mode; the flexible dental plate 605 extends to the outside of bellying 603, and flexible dental plate 605 runs through the inside guide 604 setting up of pegging graft public head 502 and sets up, and flexible dental plate 605 bottom is provided with buckle subassembly 70.

In the buckle type communication harness adapter assembly, when the male conductive part 503 is inserted, the plastic toothed plate 601 arranged on the outer side of the male conductive part is driven to move, so that the transmission gear 602 engaged and connected with the top of the plastic toothed plate 601 is driven to rotate, and the transmission gear 602 rotates, and the telescopic toothed plate 605 engaged and connected with the top of the plastic toothed plate is driven to move, wherein the movement of the telescopic toothed plate 605 is opposite to the insertion direction of the plastic toothed plate 601, and the movement of the telescopic toothed plate 605 penetrates through the guide part 604 arranged in the male plug 502 and extends to one side of the communication wire 30 on the back of the male plug 502.

Referring specifically to fig. 1, 2, 3, 4, 5, 6 and 7, in order to ensure stability of the retractable dental plate 605 during movement, the top of the retractable dental plate 605 protrudes outward to form a guide protrusion 603a, and the guide protrusion 603a is slidably connected with the guide groove 603 b; the guide groove 603b is formed in the inner top of the guide portion 604, teeth are not provided on one side of the extension tooth plate 605 extending to the outside of the guide portion 604, and a space capable of moving the extension tooth plate 605 is provided inside the guide portion 604.

According to the buckle type communication harness adapter component, the movable telescopic dental plate 605 can be guided through the guide protruding block 603a and the guide groove 603b which are matched for sliding, so that the telescopic dental plate 605 can penetrate through the guide part 604.

Referring specifically to fig. 1, 2, 3, 4, 5, 6 and 7, in order to perform the snap positioning on the male plug 502 and the female plug 501 in the inserted state, the snap assembly 70 includes a magnetic sleeve 701, which is sleeved on the outer side of the communication wire 30 and magnetically connected to the male plug 502, six groups of snap rods 702 are mounted on the outer side of the magnetic sleeve 701 in an annular equidistant manner, and the snap rods 702 are in one-to-one correspondence with the telescopic tooth plates 605; the buckle portion 703 is formed at the bottom of the telescopic dental plate 605, a damping block is arranged on the inner wall of the buckle portion 703, and the buckle portion 703 is matched with the protruding portion at the top of the telescopic dental plate 605 to complete buckle connection.

According to the buckle type communication harness adapter component, after the telescopic tooth plate 605 extends to the back surface of the plug-in male connector 502, the magnetic attraction sleeve 701 penetrates through the communication lead 30 and is magnetically attracted to the back surface of the plug-in male connector 502 in a manual operation mode, at the moment, the buckle rod 702 arranged on the outer side of the magnetic attraction sleeve 701 is buckled and extends into the buckle part 703 at the inner bottom of the telescopic tooth plate 605, and the buckle part 703 is connected with the buckle rod 702 in a buckling manner, so that the installation and positioning of the position of the telescopic tooth plate 605 are completed, and the connection between the plug-in male connector 502 and the plug-in female connector 501 is stabilized.

Referring to fig. 1, fig. 2 and fig. 9 specifically, in order to connect and locate the communication wire 30, the probability of winding is reduced, so the locating component 80 includes a limiting component 801, which is disposed on the outer side of the communication wire 30 and is provided with a plurality of limiting components 801, the limiting components 801 are magnetically connected, a set of limiting components 801 protrude outwards from the side surface and the top of the limiting components is provided with a locating slot 802, the left and right sides of the inner wall of the locating slot 802 are provided with spring pieces 803, the side surface of the other set of limiting components 801 protrudes outwards to form a locating portion 804, and the inside of the locating portion 804 is hollow and is provided with the spring pieces 803.

When the buckle type communication harness adapter assembly is actually used, the outer side parts of the communication wires 30 can be magnetically positioned through the design of the two groups of limiting components 801, and then the positioned communication wires 30 can be connected and positioned in a bending state through the telescopic spring piece 803 in the positioning groove 802 and the through hole in the positioning part 804.

Referring to fig. 1-10, the communication harness includes the above-mentioned snap-in communication harness adaptor assembly, and further includes a communication wire 30, wherein the communication wire 30 is formed by a rubber protection layer 301, a heat-resistant layer 302, a waterproof layer 303 and a cable 30i from outside to inside, the rubber protection layer 301 is made of rubber, the heat-resistant layer 302 is made of polytetrafluoroethylene, the waterproof layer 303 is made of epoxy resin, and the cable 30i is provided with three groups and is spirally wound inside the waterproof layer 303.

According to the communication wire harness, the cable 30i which is in conductive connection can be protected through the design of the rubber protective layer 301, the heat-resistant layer 302 and the waterproof layer 303, and the service life, heat resistance and waterproof effect of the communication wire 30 are effectively improved.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed within the scope of the present invention.

Claims (6)

1. Buckle formula communication pencil adapter subassembly, its characterized in that: including signal docking station (10), one side of signal docking station (10) is provided with a plurality of conductive connection portion (10 i) that are connected with inside control panel, the side of signal docking station (10) is through joint conductive mechanism (20) and communication wire (30) conductive connection, communication wire (30) and joint conversion subassembly (40) conductive connection, joint conductive mechanism (20) still including:

a conductive connection assembly (50) mounted at a side of the signal docking station (10) and electrically connected to a control panel inside the signal docking station (10), the conductive connection assembly (50) being electrically connected to the communication wire (30);

the tooth telescopic components (60) are arranged on the side face of the conductive connecting component (50) and are in annular equidistant six groups, the tooth telescopic components (60) are driven by the conductive connecting component (50), and the tooth telescopic components (60) penetrate through the conductive connecting component (50);

the clamping assembly (70) is arranged on the outer side of the communication wire (30) and positioned on the back surface of the conductive connecting assembly (50), and the clamping assembly (70) is in clamping connection with the tooth telescopic assembly (60);

the communication lead (30) is bent and arranged, the outer side of the communication lead is connected through the positioning component (80), the outer side of the signal docking station (10) is also provided with the protecting sleeve (90), the inner side of the protecting sleeve (90) is also provided with the data lamp group (100) arranged at the top of the signal docking station (10), the data lamp group (100) is electrically connected with the control panel inside the signal docking station (10),

wherein: the conductive connection assembly (50) comprises:

the plug female connector (501) is arranged on the side face of the signal docking station (10) and is in conductive connection with a control panel inside the signal docking station (10), and the plug male connector (502) is in conductive connection with the side face of the plug female connector (501);

wherein, the bottom of the plug-in male connector (502) is provided with a communication wire (30);

a male conductive member (503) mounted on the side of the male plug (502) and extending into the female conductive member (504), the female conductive member (504) being mounted on the inner side of the female plug (501), the male conductive member (503) and the female conductive member (504) being electrically connected,

wherein: the tooth telescopic component (60) comprises:

the plastic tooth plate (601) is arranged on the outer side of the male conductive piece (503) and is provided with six groups in annular equidistant mode, the side faces of the plastic tooth plate (601) are in meshed connection with transmission gears (602), and the transmission gears (602) are rotationally connected to the inner sides of the protruding portions (603);

the protruding parts (603) are installed on the outer side of the plug-in female connector (501) in an annular equidistant mode and correspond to the plastic tooth plates (601) one by one, and the tops of the transmission gears (602) are connected with telescopic tooth plates (605) in a meshed mode;

the telescopic tooth plate (605) extends to the outer side of the protruding part (603), the telescopic tooth plate (605) penetrates through a guide part (604) arranged in the plug-in male head (502) to be arranged, the bottom of the telescopic tooth plate (605) is provided with the buckle component (70),

wherein: the top of the telescopic tooth plate (605) protrudes outwards to form a guide protruding block (603 a), and the guide protruding block (603 a) is in sliding connection with the guide groove (603 b);

wherein the guide groove (603 b) is arranged at the inner top of the guide part (604), the telescopic tooth plate (605) is extended to one side outside the guide part (604) and is not provided with teeth, the guide part (604) is internally provided with a space capable of enabling the telescopic tooth plate (605) to move,

wherein: the buckle assembly (70) comprises:

the magnetic attraction sleeve (701) is sleeved on the outer side of the communication wire (30) and is magnetically connected with the plug-in male head (502), six groups of clamping rods (702) are mounted on the outer side of the magnetic attraction sleeve (701) in an annular equidistant manner, and the clamping rods (702) are in one-to-one correspondence with the telescopic tooth plates (605);

the clamping part (703) is arranged at the bottom of the telescopic dental plate (605) and the inner wall of the clamping part is provided with a damping block, and the clamping part (703) is matched with the protruding part at the top of the telescopic dental plate (605) to complete clamping connection.

2. The snap-in communication harness adapter assembly of claim 1, wherein: the joint conversion assembly (40) comprises:

the first data connector (401) is in conductive connection with the communication wire (30), a rotating shaft (402) is arranged on one side of the upper end and the lower end of the first data connector (401), and the rotating shaft (402) extends to the inside of the sliding part (403);

the sliding part (403) is arranged on the upper side and the lower side of the inner wall of the external connecting sleeve (404), and the external connecting sleeve (404) is movably connected to the outer side of the first data connector (401);

and the second data connector (405) is arranged inside the external connecting sleeve (404), the bottom of the second data connector (405) is electrically connected with a conductive connector (406), and the conductive connector (406) is spliced with the first data connector (401).

3. The snap-in communication harness adapter assembly of claim 2, wherein: the sectional area of the first data connector (401) is smaller than the sectional area of an external connecting sleeve (404), one side of the external connecting sleeve (404) is arc-shaped, the length of the side is smaller than that of the other side, the inside of the other side of the external connecting sleeve (404) is hollow, and the height of the hollow part is larger than that of the first data connector (401).

4. The snap-in communication harness adapter assembly of claim 1, wherein: the outside of grafting female head (501) is provided with tooth flexible subassembly (60), tooth flexible subassembly (60) run through public first conductive piece (503) and set up, the back side of public first conductive piece (503) is installed buckle subassembly (70).

5. The snap-in communication harness adapter assembly of claim 1, wherein: the positioning assembly (80) comprises a limiting part (801), wherein the limiting part (801) is arranged on the outer side of the communication wire (30) and is provided with a plurality of limiting parts (801), the limiting part (801) is magnetically connected to the communication wire (30), a group of positioning grooves (802) are formed in the mode that the side faces of the limiting part (801) protrude outwards and the top of the limiting part is provided with positioning grooves (802), spring pieces (803) are arranged on the left side and the right side of the inner wall of each positioning groove (802), a positioning part (804) is formed in the mode that the side faces of the limiting part (801) protrude outwards, and the positioning part (804) is hollow and internally provided with the spring pieces (803).

6. A communication harness comprising the button-type communication harness adapter assembly according to any one of claims 1 to 5, characterized in that: the waterproof cable comprises a communication wire (30), wherein the communication wire (30) is composed of a rubber protection layer (301), a heat-resistant layer (302), a waterproof layer (303) and a cable (30 i) from outside to inside, the rubber protection layer (301) is made of rubber, the heat-resistant layer (302) is made of polytetrafluoroethylene, the waterproof layer (303) is made of epoxy resin, and the cable (30 i) is provided with three groups and is spirally wound inside the waterproof layer (303).